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Circadian control of XPA and excision repair of cisplatin-DNA damage by cryptochrome and HERC2 ubiquitin ligase

J. T. Reardon, Tae‐Hong Kang, Laura A. Lindsey‐Boltz, A. Sancar

2020UNC Libraries23 citationsDOIOpen Access PDF

Abstract

Cisplatin is one of the most commonly used anticancer drugs. It kills cancer cells by damaging their DNA, and hence cellular DNA repair capacity is an important determinant of its efficacy. Here, we investigated the repair of cisplatin-induced DNA damage in mouse liver and testis tissue extracts prepared at regular intervals over the course of a day. We find that the XPA protein, which plays an essential role in repair of cisplatin damage by nucleotide excision repair, exhibits circadian oscillation in the liver but not in testis. Consequently, removal of cisplatin adducts in liver extracts, but not in testis extracts, exhibits a circadian pattern with zenith at ∼5 pm and nadir at ∼5 am. Furthermore, we find that the circadian oscillation of XPA is achieved both by regulation of transcription by the core circadian clock proteins including cryptochrome and by regulation at the posttranslational level by the HERC2 ubiquitin ligase. These findings may be used as a guide for timing of cisplatin chemotherapy.

Topics & Concepts

Nucleotide excision repairUbiquitin ligaseDNA repairCisplatinCryptochromeDNA damageBiologyDNA ligaseCircadian clockUbiquitinMolecular biologyCell biologyDNAGeneticsGeneChemotherapyPlant Genetic and Mutation Studies